Locomotive terminal



L. PLANT LOCOMOTIVE TERMINAL Filed Nov. 29, 1926 Oct. 2, 1928.

L.. G. PLANT LocoMoTIvE TERMINAL mea Nov. 29, 192s e sheets-sheet s Oct. 2, 1928.

L. G. PLAN-r LOCOMOT I VE TERMINAL Filed Nov. 29, 1926 6 Sheets-Sheet -4 ONDER P/s f ma? oct. 2, 1928.

I 1,686,103 L. G. PLANT LocoMoTIvE TERMINAL Filed Nov. 29, 1926 I LCTvZ/O dama GPZ@ 2 Oct. 2, 1928.

I L. G. PLAN-l' LocoMoTIvE TERMINAL s sheets-sheet I6 Filed NOV. 29, 1926 Patented Oct. 2, 1928.,

UNIT-an sTAras LELAND G. PLANT, OF CHICAGO, ILLINOIS.

LOCOMOTIVE TERMINAL.

i Application filed November 29, 1928. Serial No. 151,445. 'i

This invention relates to terminals for railway "locomotives, and particularly terminals for serving locomotives. of the type which employ for their normal ropulsion,

steam generated by combustion of) fuel u on the locomotive grate; and the invention as for its object to so arrange the essential constituent elements of the terminal and to provide such facilities thereat that while main- 1o taining the capacity of the locomotive to propel itself for at least'as great a proportion-of the time of its detention at the termi: nal as that. which obtains in-the ordinary method of'operating steam .locomotive vterminals, and referably forv a much greater proportion oi) the time, the locomotive fire and its attendant disadvantages will be totally banished from the engine house, the locomotive will have a working steam pressure established therein much more quickly after those service operations which involve emptying the boiler, and working pressure, boiler temperature, and desired water level will be economically maintained for an'y len th of time that the locomotive may remaln at the terminal without carrying fire on the locomotive grate.

Among the important advantages of elim-y inating locomotive fuel consumption jin the engine house or at housed parking stations as accomplished in this locomotive terminal, are the avoidance of the insertion of locomo tive smoke ducts in the roof or use of other smoke disposal 'means in the engine house, which, as features of the conventional engine house, not only increase the cost and complication involved in its construction, but

vlead to a large source of heat loss during" cold Weather, when an e'ort is being made 4o to warm the interior of the engine house;

` also maintenance of purer atmospheric conditions for the operatives, since locomotive smoke disposal means are seldom wholly eective in excluding locomotive smoke and gas from the engine house; also the avoidance of'noise and expense incident to the use of blower steam, exhausted up the locomotive stacks, in creating draft for fanning locomotive fires; also by such improvement vof operating conditions in the locomotive engine house where considerable routine rel pair and current maintenance work must be conducted,.the increase of efficiency of the work, from. the standpoints of cost, time consumed, and the results achieved, all of which are`seriously impaired by the presence, of smoke orl gas and the noise of escaping blower steam; also improvement of conditions affecting structural maintenance of the engine house itself through the absence of fumes accompanying locomotive fuel con sumption and blower steam, both of whicl accelerate the corrosion of the engine house structural surfaces -and equipment, particularlg1 piping and' metallic fixtures; also facilitating compliance with smoke ordinances 'or otherwise avoiding trespass by objectiom.

able emission of smoke, where thelocomotive terminal is4 situated in a congested municipal area or adjacent a residential district.

By segregating the locomotive fire dumps, ing, housing, and iire building events and` 7 maintaining locomotion by extraneously generated steam as provided for in this locomotive terminal, ignition of the fire can be limited to places outside the engine house and the length of time that fires are burned, in locomotives, at the. terminal can be restricted to the brief interval in which the fire is being ignited preparatory to' departure from the terminal,4 which constitute further advantages, since legislative penaltics imposed for making smoke apply with less severity to smokefrom a locomotive outside the engine house than to smoke emitted from the smoke ducts of an engine house,A usually classed with industrial and stationary boiler plant stacks in respect to smoke regulation; and where conditions necessitatel complete elimination of locomotive smoke and stack gas at locomotive terminals, and smoke Washing or other means are employed to this end. the equipment required for washing or otherwise disposingl of locomotive smoke andstack gas can be reduced to a capacity only suiiicient to assimilate smoke and gas generated during lthe brief period of fire ignition preparatory to departure.

The operation of igniting a fire that has' been laid on the locomotive grates can ordinarily be accomplished in live or ten minutes, n

whereas locomotives held under steam pressure bymeans of banked lires on the gratos,

emit smoke and gasduring their entire layover period at the terminal. The alternate procedure now practiced viz: dumping the fire on arrival and allowing the steam pressure to die down, rebuilding the fire preparatory to departure and generating `a working steam pressure by means of a tire on the rates, cannot ordinarily be laccom- -plished 1n less than one hour of time. It

will be seen, therefore, that either process described necessitates smoke disposal means of several times the capacity required Iin a terminal embodying the present invention, to effect the complete elimination of locomof tive smoke and stack gas where this is required at a locomotiye terminal.

In addition to the elimination of the smoke and' stack gas ordinarily issuing from locomotives standingv for protracted periods at a terminal, the invention is productiveof a large andsubstantial fuel saving bythe substitution of steam generated in etiiclent stationary boilers operatino` at an economicalv rate. and capable of utilizing relatively cheap fuel, for an equal quantity oftsteam` generated in locomotive fireboxes at an uneconomlical rate of combustion and 'requiring a relatively expensive fuel. The extent of` this saving is dependent upon the time that locomotives are held under steam by means of a fire on the grates in comparison with the time that they are held under pressure by steam supplied in stationary boilers; or is dependent upon the quantity ,of fuel con- Aas ' effect on locomotive boiler maintenance since I out all it is generally conceded that repairs to locomotive boilers and fireboxes are lessened by I f grates before the locomotive 1s fit for` active any reduction in the extent or frequency o temperature changes in the boiler, -or by any reduction in temperature variations througharts of the boiler. In a locomotive termina of this type, in which'steam is supplied from a stationary boiler to locomotives standing at. the terminal, a morenearly uniforni steam pressure is maintained 1n the locomotive, during the entire time that it isheld-at the terminal, than is found practicable in every day operation where steamis maintained by means of a fire on the grates.

Furthermore, the maintenance of steam pressure by a tire on the grates, while the locomotive is standing at the terminal necessitatesconstant attendance which, if neglected, may reesult in the water level dropping below the firebox crown sheet and serious damagel to the crown sheet from overheating.

Whenever it is necessary to empty and refill the locomotive boiler at a terminal the delivery of live steam tol the boiler, as provided for in-this invention, insures greater uniformity in temperatures throughout all parts of the'boiler shell and artitions than when the boiler is filled wit water alone. This can be explained bythe fact that when cold water is pumped into the boiler the lower portions of the boiler shell and irebox contract more than the upper parts -ofthe shell and when hot Water 1s injected there is somewhat more expansion to the lower` surfaces than the upper surfaces of the boiler. On the other hand,` if steam is injected directly as provided for in this invention or is combined with the lilling water and this steam boilers to establish and maintain a working steam pressure in locomotives at terminals of the type proposed in this invention, there is a practical advantage in dispatching locomotives with vclean fires; that is, fires in which there is no large accumulation of ash or partly consumed coal. Where the steam pressure has beenA generated by fire on the grates, and the .engines are held for some time awaiting assignment to duty, there must necessarily have accumulated an appreciable quantity of ash and partly consumed coal on the grates, in keeping up steam pressure and corres ending water temperature in the boiler. ere locomotives are held under steam pressure for an appreciable period by means of fire on the grates, it is o ten necessary to remove ash from the service. This condition may either entail additional labor and some delay in the move- A ment of the'loeomotive or result in the locomotive being dispatched in an impaired condition for eicient service. In a terminal of' the type proposed in the present-invention, locomotives' need have accumulated no appreciable quantity of ash or unconsumed coal on -the grates u 4to the time said locomotives are dispatc edfor road service`.

Another feature of practical importance in this invention is that all of the smoke abatement, fuel economy, and time saving advantages claimed for the invention can be realized in a locomotive terminal of the type proposed without abolishing the essential facilities depended on for locomotive conditioning and dispatch, in conventional types otterminals. For instance, if induced draft m18 washing apparatus is alone provided for exhausting' and cleansing locomotive smoke and gas during the firing up period or while locomotives are being held under steam pressure with banked fires, serious delay in the preparation of locomotives for service and interruption to railway service mayresult from a power failure or other causes that would temporarily stop the -operation of the draft inducing fans. The present invention contemplates an addition to existing facilities without the necessaryl abolishment of the essential facilities for conditioning and dispatching locomotives at a terminal.

lVhile in the operation of this locomotive terminal it is possible to accomplish t-he various func-tions essential to the purposes of the invention without reference to particular trackage arrangement or locomotive turnmg means employed and the results desired are not contingent upon any particular lay-out of tracks and turntable, further than observance of such a general arrangeand, structurally and in detail, the several elements entering into such installation, including two modifications of one of the ele- .ments, to-wit, the fire igniting station.

In said drawings- Figure 1 is a diagrammatic view, in plan,`

of the complete apparatus with its elements identified by legend.

Figure 2 is a detail view showing a locomotive standing at a conditioning and storage posit-ion with a portion of the apparatus immediately concerned in the treatment of the locomotive, to-wit, that portion of the apparatus disclosed in elevation, by a section on line QX-Q of Figure 1, on an enlarged scale.

Figure 3 is a view of the portion shown in Figure 2, when viewed from a position to the right of Figure 2, to-wit, that portion of the apparatus disclosed by a vertical section on the line SX-Sx of Figure 1, but on an enlarged scale.

Figure 4 is an elevational View of apparatus located at a locomotive parking or storage position, for instance, such a view as would be disclosed by a section on the line iX-1x of Figure 1, drawn on an enlarged scale.

Figures f1 and 4b are axial sections, in two planes at right angles to each other, of a valve embodied in the portion shown in Figure 4.

Figure 5 is a plan view of the portion shown in Figure 4.-.

Figure 6 shows fire dumping and fire igniting positions conveniently located in relation to the terminal, to-wit, a view afforded by a vertical transverse section on the line 6"- x of Figure 1, drawn on an enlarged scale.

Figure 7 is a. view corresponding to Figure 6, for instance, a. view presented vby a section, on an enlarged scale, taken on the line 7"- X of Figure 8, in which is shown a smoke disposal means, and particularly one operating upon the principle of conducting away the smoke to a remote point of disposal, for instance, the smoke washer shown in Figure 8.

Figure 8 is a plan vview of a modified installation indicating location'of parts shown in Figure 7, together with a smoke washer and its stack.

Figure 9 is a plan view showing a modified installation in which the fire dumping and lire igniting positions are provided with a'shclter designed to afford necessary protection and light. while permitting escape of smoke incident to firing; and

Figure 10 is a vertical transverse sectional view on the line 10"---1'0x of Figure 9 showing structural details of the shelter of Figure 9 on an enlarged scale.

Referring to Figure l, A represents tracks of any desired number over which locomotives may pass in reaching the engine house; B represents fire dumping stations 1n the tracks A; C is an engine house of any apy proved conventional design, for instance,

one in which stalls D for locomotives Aand trackageleading thereto, are arranged radlally to a turn table E, .through which any I trackmay be connected with the inbound tracks A; F' represents drops or pipe connections which, according to the present invention, are preferably of special construction to be hereinafter described, and'through means of which a locomotive in any stall may be connected at will with either of three pipe-mains, to-wit, the pipe-main G serving as a blowoffpipe for conducting the contents of a boiler to separating and heat salvaging apparatus, a filling water pipemain G2 through means of which the boiler may be refilled after it has been blown off,

4washed out, and received any needed repairs,

and a live steam pipe-main G3 through means of which steam is supplied at pressure and temperature suitable for boosting the .supply of filling water, maintaining the temperature of the water, and giving the boiler a suicient quantity of steam to bring it up to self propellingpressure after its complement of water has been received; D represents parking stalls which may be either inside or outside ,of the house and in which locomotives may be placedl under cond'itions which involve4 connecting them, through drop-connections H preferably of special construction, as hereinafterdescribed, merely with the steam supply main G3 or the blowofl2 main G', ory both, for in- Ilm stance, when the locomotives are awaiting @admission to a stall suitable fory performing special work upon them and pending which it may be desirable to keep up their steam and render them self-propelling, or when they require no repairs or onlymlnor repairs, not involving refilling of their boilers with water, or while awaiting assignment to duty after completion of repairs in other stalls, or even for the purpose, merely, of maintaining the locomotive storage capacity ofthe terminal, or at such other times as may be founddesirable. The said stalls D are served by the turn-table E as in the case of other stalls.

I represents fire igniting stations at which locomotives can be placed after leaving the engine house or an of the stalls D', and at which the fuel ed, laid either in such station or at any convenient points prior to the 'engine reaching the same, may be ignited.

In accordance-with established practice,

I blowoff pipe G will lead to a separator K whence the volatiles pass to 'a condenser L in which they meet fresh water suitable 'for fillingl purposes, giving up their heat to such water, whereupon the water thus-heated, to-

gether with the water of condensation, passv to the hot water filling reservoir M from which water at suitable temperature may be drawn whenever needed, by means of a pump N and delivered to the filling pipe G2.

ipe Gra leads'from a source O of live steam,

preferably in the form of a stationary .boiler 4 which is also adapted, by means of a conwing nut, o r through means of an equivalent flexible and easily manipulated Iconnecting element, to the locomotive blow-off valve, and at its other-end, through means of a. flexible connection 3, to-a branch fitting 4 from which extends a flexible hose or conduit 5 leading to valve 6, which is in turn connected tothe blowof main G at -7 and represents a combining chamber into which a. pipe 9 leads from the filling water main G2 and a pi 10 leads from the steam main G". The filling water pipe 9 is controlled by valve 11 convenientl lated through a depending han le 12, and a check valve 13 to resist back flow toward maniputhe filling water main; the pipe 10 is similarl provided with a controlling valve'14 manlpulated by a drop handle 15, also with a check valve 16 to resist backfiow towards the steam main. kIn addition to the controls so far enumerated, the steam pipe 10 is lprovided with an additional controlling valve 17;l whichftogether with the valve 6y .spective valve stems, and an 'equalizing yoke 21havin slot and pin connections 22 and 23 with t e ends of said levers, that whenever one of said valves 6 or 17 is open the other will be closed and it will not be possible, through mistake, to release live steam into the connector 1 and have it o to waste through the connections 5, 6, an 7 into the blowoffvmain G.

From those locomotive stalls which do not require a supply of filling water, for instance, stalls indicatedat D (Fig. 1), but which` do require a supply of live steam for keeping locomotives up to steaming pressure, and facilities for blowing ofi' and reclaiming heat from excess water resulting from condensation of such steam, drop connections H such as illustrated in Figures 4, 4, and 4b may 'lead to the several mains. Here, the manual control of steam involves a valve 14a (Figures 4 and 5) located in the steam connection to a position in which it will open the blowoff connection and close the steam connection, or to a position in which it will open the steam connection and close the blowoff connection, thereby preventing any possibility of opening both said connections at one time, which would result in the waste of steam into the blowofmain G.

The drop pi e 1'* used for making connection 'with the ocomotive boiler in Figure 4, or at those stalls indicated by the letter D', may, as shown therein, if desired, be'made of rigidpipe sections united by hinging joints 1". Inasmuch as lpcomotives at some of the stalls for instance, stalls D outside of the Ahouse will -frequently be those which have tion of steam supplied through line G3, will be'clean enough to go back to 'Ehe filling tank directly, rather than to the separator K llever25 and drop' handles 26 and 27, either Cil where only the volatiles are saved. For this pur ose a branch blowofl' pipe G4 leading directl)y to filling tank M, is connected with the main blowoft line G- through means of a selective three-Way valve G5, at such a point in line G as will make it possible to blow olf from those stalls D which are outside of the house to either the separator or the filling tank when desired, and regardless of whether.

or not the blowoif from stalls D and D with- -in the house, to the separator is being carried on. i y 4As suggested in Figures 6 and 7, at Vthe fire dumping stations, einder pits B may be developed in the formv of individual pits of any suitable construction, located under the respective incoming tracks, or as suggested in Figure 10, a relatively large cinder pit B may be designed to serve a vplurality of such tracks.

` As suggested in Figure 6, the fire igniting station I may consist merely in an appropriate location upon the outgoing tracks without special facility for. smoke disposal other than through escape into the atmosphere; or it may be, as suggested at I' in Figures 7 and 8, provided with smoke jacks 28 leading to a down-draft flue 29 whence the smoke is drawn through underground smoke duct 30 through a washer 31 and remotely discharged through a stack 32, all of which parts are of known construction and therefore need only be shown diagrammatically herein.

A shown in Figures 9 and 10, the fire igniting stations I2 may be modified in a manner to provide appropriate shelter 33 with smoke vents 34 extending longitudinally of the trackage and permitting escape of smoke from the locomotive stacks in different positions.

In practicing my invention, a locomotive, in entering a. terminal on track A, willbe brought to a fire-dumping position B at which the fire and ash are discharefed and disposed of. Afterv the lire has been completely discharged from the locomotive, there is in practice sufficient steam and water, at steaming temperature, remaining in the locomotive to enable it to propel itself to a storage station D or D', where it can be held until-Wanted for service and where the locomotive may receive the maintenance attention necessary to t it for service. If

such attention does not necessitate emptying v the contents of the boiler, the procedure practiced in the present invention will be to establish a. pipe connection 1, 10 (Figs. 2 and A 3) or l", 10a (Fig. 4) between the locomotive boiler blowoff valve and a high pressure steam line G3, said pipe connection having a branch connection 5 (Figs. 2 and 3) or 5a (Fig. 4) to a blowoii' main G. The steam main is supplied with steam generated in an ciiicient stationary boiler plant O conveniently located for this purpose and preferably adapted to burning a cheaper fuel than,l required for use on locomotives. As soon as connection 1 or 1a is securely attachedy to the locomotive blowoiil valve through eoupling2 or any other suitable valved connection 1n the lower part of the locomotive boiler, the blowofl' or other locomotive valve and then the live steam valves 14, 17, or '14, 24, controlling admission of live steam to this connection, are opened. The effect of this connection is to establish a steam pressure in the locomotive boiler approximately equal to the steam pressure in the steam supply main and, also, a water temperature throughout the locomotive boiler corresponding approximately to the temperature of saturated steam at the pressure established in the locomotive boiler; This ycondition in the locomotive boiler is maintained as long as a connection between the steam supply main and the locomoti've boiler is maintained. Should the pressure in the steam main G3 fall belowl the pressure established in any locomotive boiler to which it is connected, the check Valve 16 or 13a inserted in the individual locomotive connection, will `prevent a corresponding drop'of steam pressure inthe locomotive boiler. At any time after the locomotive is thus stored, but preferably as soon as possible after the locomotive has been placed at a storage station and connected with a steam supply as described, a bed of coal is spread evenly over the surface of the grate. During the remaining interval that the locomotive is stored, the temperature of the surrounding lirebox surfaces, due to the presence of water at steam temperature Within the boiler, tends to evaporate the moisture content from this coal. The effect of thus covering the surface of the grates with coal is to restrict air currents from passing through the irebox and fines of the locomotive boiler.

lVhile the locomotive is thus held at its storage station there will be some condensation of steam which is being supplied `by .so manipulating the valves 14, 17, and 6, v

or 14a and 24, as to intercept the'supply of ,steam and establish connection between the locomotive and the blowotl main G above referred to, whereupon the steam pressure above the water in the locomotive boiler will immediately forcethewater to flow through the path 1, 4, 5, 6 and 7, or through the p ath 1, 24 or 5, to the blowotf main G until a l sufficient quantity "of water has been 'eX- rectly to retill tank M where water as well as vola-tiles are save. The values are then again manipulated in a manner to dlscontmue the blowoff and resume steam supply necessary for maintaining a working steam pressure and corresponding water temperature in the locomotive boiler until the locomotive is wanted for service. To place the locomotive in service, the steam supply valve and rthe' boiler blowof valve on the locomotive are first closed, then the valve in the branch connection tothe blowoif main is opened to release Whatever steam pressure there may be in the pipe connection between these valves. This pipe connection is then disconnected at 2 from the locomotive blowofi' valve, as the locomotive now has sufficient steam pressure to propel itself, and the boiler contains a sufficient body of water at steam temperature to give the'locomotive a sufficient reserve steam supply to enable the locomotive to move some distance or be held under pressure for some length of time without fire on the gratos. In practicing my invention, therefore, the locomotive moves under its own steam and Without a fire on the grates,

,over the turntable E, to the fire igniting station I, that may comprise simply a track conveniently arranged for dispatching locomotives from the terminal, in which case it may be sufIicient-ly distant from the storage stations to relieve these stations of the presence of any objectionable smoke or gas fumes while fires are being ignited. A lire ignitin r station may be employed such as shown at 2, which is housed in a building 33 and where the locomotive is stationed under the longitudinal smoke duct 34; or a station such as shown at I may be employed, where smoke ducts 29, 30, and washer apparatus 3 are provided for removing and cleansing locomotive smoke and directing it up the stack 32 during the fire igniting period. In the latter instance a flexible smoke jacket 28 is fitted over the locomotive stack at the fire igniting station I and the products of combustion are drawn through this smoke jack into the ducts 29, 30, then through the smoke washing machine, in which a portion of the gas is absorbed and solid particles are precipitated by washer, and finally, from this washer through a stack adjacent thereto. Still another alternative consists in a duct system with flexible locomotive stack connections and draft inducing means for conveying the smoke from locomotives in which.

the fires are being ignited, to some remote point of discharge. Where the fire igniting station is not equipped with draft inducing means, the necessary draft for igniting a fire on the grates may be created by the steam blower provided in the front end of all locomotives of conventional design, steam for this blower being supplied by the locomotive itself. At the igniting station, the fire may be ignited in various ways, as, for instance, by spreading some inflammable matter over the bed of coal, or by applying an oil or a gas torch. All of these methods are in common use except the use of a gas torch, which is new in practice and is proposed as a practical means for minimizin the smoke emitted from locomotive stac rs while tires from the time that the fire is ignited, the

locomotive having been held under steam, in the manner described, without fire on the grates. This is attributed in part to the improved circulation of water in the locomotive boilerresulting from the agitation caused by inflowing steam at the storage station and in part to the drying out of the fuel by the heat ofthe supplied boiler charge, which leaves the volatiles of the fuel more ready to d-istill ofi and become ignited. rlhe fire being ignited to a point Where it can commence to generate steam in the boiler, the locomotive is ready for service and can be dispatched from the terminal, thus completing the main cycle of operations involved in the movement of locomotives through a terminal of the type identified in that embodiment of the presentI invention which does not involve emptying and refilling the boiler. Even Where emptying and refilling the boiler are needed, the procedure above outlined is not materially altered. except at the storage stations, which, for the last named'purpose, are traversed by a filling water main Gr2 adjacent the blowoff and steam mains above referred to. lVhen a locomotife boiler is to be emptied at the storage station, the flexible pipe connection l, which at these stations leads jointly from the blowoff main G', the steam main G3, and the filling water main G2, is attached to the locomotive blowoft valve at 2 (Fig. 2) the locomotive blowofltl valve and branch valve 6 to the blowof main are both opened; and the contents of the boiler are exhausted roo4 lll

into `the blowo' main, the exhaust ow of water, refuse, and steam being accelerated by 4the steam pressure 'in the locomotive boiler until emptied. This Water and steam are conducted through the blowoH main to the separating device K (Fig. vl), in which the water is separated from the steam, and from which the volatiles are conducted to the condenser L where they are condensed in. contact with cold Water, the condensate being delivered to t-he water reservoir M suitably insulated to retain heat. The separator and condenser employed in the present invention may be of any conventionaltype now in use but the condenser should preferably be designed to operate at a vacuum so that the maximum quantity of volatiles can be liberated from* the water exhausted from locomotives through the blowoi'` main. l/Vhen the locomotive boiler is. ready to fill, the blowo branch valve 6 is closed and thefilling water branch valve 11 is opened,` lermitting hot filling Water to be pumped rom'the reservoir above de scribed, through the filling water main G2 and'branch 9 to a water .and steam combining chamber '18 where it mingles with steam supplied 'through a brangh to the steam main. The resultant mixture o`f Water and steam then flows through the flexible pipe connection 1 above described, and is delivered to the locomotive through the boiler blowoff valve at a steaming temperature. As soon as the water reaches the desired level in the boiler, the filling Water branch valve 1l is closed and supply of steam is continued, without addition of water, until the pressure in the boiler equalizes with the pressure of the steam supply source, atv which point `of pressure the steam will be maiu-A tained vuntil the locomotive is wanted for service. If, at the time of establishing steam pressure, in the manner described, or subsequently thereto, it is desired .to reduce the Water level in the locomotive boiler, this can be accomplished by temporarily closing the steam supply valveand opening the blowof branch valve until -suliicient `Water is exhausted, in the manner already described.

This same procedure'will be followed if it be desired to performthe conventional step of partially cleansing .the boiler by a brief blow down previous to departure, a step that the` present invention is peculiarly adapted for, since it recovers the heat of ybeen accomplished, the positions of the aforesaidl valves are re-established so that Working steam pressure and corresponding water temperaturesA are maintained on the locomotlve vuntil wanted for service, at which timethe locomotive is moved tothe fire ignitmg station and prepared for service in the manner already outlined.

I claim:

1. The method of storing steam locomotives at a terminal, which consists in discharging-the locomotive .fire at a fire dumping station, then placing the locomotive at the storage station, maintaining a working steam pressure with corresponding water temperature throughout the locomotive boiler while at the storage station and without fire in the locomotive, then moving the locomotive by self propulsion from the storage sta-tion,- and thereafter igniting theiire and dispatching the locomotive for service.

2. The method of storing steam locomotivesLat a terminal, which consists'in discharging the locomotive fire at a fire dumping station, then placing the locomotive at the storage station, maintaining a Working steam` pressure with corresponding Water temperature, accompanied by boiler Yagitation which renders such temperature uniform throughout the locomotive boiler while lat the storage'station and Without fire in the locomotive, then moving the locomotive 95 by self propulsion from the storage station, and thereafter igniting the fire and dispatching the locomotive for service.

. 3. The method of storing steam locomo- I tives' atv al terminal, which consists in dis- 10U charging the locomotive fire at a tire dumping station, then placing the locomotive at the storage station, maintaining a Working steam pressure with corresponding Water temperature throughout the locomotive boiler while at the storage station and with. out fire in the locomotive, subjecting a fresh bed of fuel on'the .locomotive grate to the drying effect of boiler heat while at the storage station, then moving the locomotive by self propulsion froml the storage station, and thereafter igniting the lire and dispatching Athe locomotive for service.

4. The method of storing steam locomotives at a terminal, which consists in discharging the locomotive fire at a fire dumping'station, then placing the locomotive at the storage station, maintaining a working steam pressure with corresponding Water temperature throughout the boiler while at the storage station and without fire in the locomotive, then moving the locomotiveby self propulsion from the storage station to a remote position, igniting the fire in the last-named position, there 125 conducting away from the locomotive the products of combustion, and subsequently dispatching the locomotive for service.

5. The method of storing steam locomotives at a terminal, which consists in dis- 130 locomotive y I`age station, movin charging the locomotive (ire Iat a re dumping station, then placing the locomotive at the storage station, maintaining a working steam pressure with corresponding water temperature throughout the locomotive boiler while at the storage station, without fire in the locomotive, removing and salvaging water laccumulating in the boiler, in excess of the desired level, while at the storpropulsion from the storage station, and

I thereafter igniting the fire and` dispatching the locomotive fortservice. .s

6. The`method of storing steam locomotives at a terminal, which consists in discharging the locomotive fire at a fire dump- 'ing station, then placing the locomotive at the storage station, maintaining a working Vsteam pressure with corres onding Water chargin the locomotive're at a fire dumping station, then placing the locomotive at a storage station, .maintaining a `working vsteam pressure with corres onding water temperature throughout t e locomotive boiler while at the storage station, Without fire inthe locomotive, lowing down the boiler, with recovery of blown off products,. to partially cleanse the same, and restoring.

its water to desired level without loss of temperature, while at said storage station, moving the locomotive by selffpropulsion `from the storage station, and thereafter igniting the lire and dispatching the locomotive forservice.

8. The method'of storing steam locomotives at a terminal, which consists in discharging the locomotive fire ata fire dump- `ing station, placing the locomotive atthe storage station, emptying and refilling the locomotivevboiler at the storage station and there re-establishing and subsequently maintaining a working steam pressurewith corresponding water temperature throughout the locomotive boiler, without fire in'the locomotive, then moving the locomotive fromthe storage station b self propulsion, and thereafter igniting t e fire and dispatching the locomotive for service.

9. In a steam locomotive terminal, a locomotive fire disposal station, a locomotive storage station segregated: from said fire dis posal station, a fire igniting station remote from said stra e station, means at said storage station or establishing in a. loco- 0' the locomotive by selfstorage station for establishing in avlo'comotive, without application of lire thereto, steam at a pressure and water at a temperature that render the locomotive. capable of both propelling itself from said storage station to said fire igniting station, and there inducing a desired draft upon itsown lire.

11. In, a steam locomotive terminal, a locomotive fire disposal station, a locomotive storage station sefrregated from said lire disposalstation, a .gre igniting station remote from' said storage station, means at said storage station for establishing in a locomotive, without 1 application of tire thereto, steam at a -pressure and Water at a temper-` ature that render the locomotive capable of .propelling itself from said storage station to'said fire igniting station, said means comprising a source of steam and a source of heated water, both of which are extraneous to the locomotive. 12. In a steam locomotive terminal, a locomotive fire disposal station, a locomotive storage station segregated from said lire disposal station, a fire igniting station remote from saidstorage station, means for establishing'in a locomotive, without" application of fire thereto, steam at a pressure and water at a temperature that render the locomotive capable of propelling itself from said storage station to said lire igniting station; said means comprising a source of steam and a source of heated water, both of which are extraneous to `the locomotive, and connections at said storage station adapted to establish communication between the boiler of the locomotive and said steam and water sources, individually or concurrently, at will.

13. In a steam locomotive terminal, a locomotive fire disposal station, a locomotive storage station segregated from said lire disposal station, a fire igniting station remote. from sald storage station, means for establishing in a locomotive, without application of rethereto, steam at a pressure and water ata temperature that render the locomotive capable of propelling itself from saidstorage statlon to sald fire igniting station; said means comprisingl a source of water at steaming temperature, extaneous to the locomotive, and a connection establishing communication between the locomotive and said Water source, at will.

14. In a steam locomotive terminal, a locomotive lire disposal station, a locomoboiler of the.

-comprisino a b owoi main salvaging appa- I b i d posal station, a tire igmting station remote nasales tive storage station segregated from said tire disposal station, a tire ignlting station remote from said storage station, means for emptyingy the boiler of a locomotive at said storage station, and re-establishing therein, without application of lire thereto, steam at a presi sure and Water at a temperature that render -said fire disposal station, a tire igniting station remote from said storage station, means for emptying the'boiler ot a locomotive at said storage station, and 1re-establishing therein, without application of lire thereto, steam at a pressure and water at a temper-Y ature that render`the locomotive capable of propelling itself trom said storage station to said fire i iting station; said means ratus receiving blown oli products from sai main, extraneous sources of steam and heated Water, and valved connections at the storage station adaptedl to establish communication between the locomotive boiler and said main, or With both of 'said sources proportionately `at will.

' motive fire disposal station, a locomotive storage station segregated from said fire disosal station, means at said storage station or maintaining in a locomotive, Without ap'- plication of fire thereto, steam at a4 pressure that renders the locomotive capable of propelling itself away from said storage station 'and for periodically reducing the water of the boilerr to a desired level; said means com rising a source of steam extraneous to the ocomotive, a blowofi main, salvagin apparatus receiving blown oi products om said-main, and connections adapted to establish communication between the boiler of the locomotive and said steam source and main alternately, at will.

17. In a steam locomotive terminal, a locomotive re disposal station, a locomotive storage station segregated from said lire dlsosal station, means at said storage station or establishing in a locomotive, without application of fire thereto, steam at a pressure that renders the locomotive capable of prop peiling itself away from said stora e station,

-and for blowing down or parta y evacuating the boiler and re-establishing water therein, at a desired level and at temperature appropriate to such pressure, said means comprising a source of Water at steaming temperature, extraneous to the locomotive, a blowod main, means receiving and salvaging products blown olf through said main, and l connections establishing communication between the Vboiler of the locomotive' and. said water source and main, alternately, at will.

18. In a steam locomotive terminal, a locomotive storage station, and means at said station for establishing and maintaining in a locomotive, without'the application of lire thereto, steam at a pressure and water at a temperature that render the locomotive capable of propelling itselfv away from said storage station and maintaining the locomotive in such condition until assigned for duty, said means including a supply main,

a blowoff main, connections adapted toestablish communication between the boiler of the locomotive and said mains, and a Selective valve device with single operating means controlling both of said connections and constructed to close either of said valves when the other is opened, thereby establishing such communication with the respective mains alternatively at the will of the operator.

19. In a' steam locomotive terminal, a locomotive fire v disposal station, a locomotive storage station segregated from said lire dis- Jromsaid storage station, means at said storage station for establishing in a locomotive, without application of fire thereto, steam at a pressure and Water at a temperature that render .the locomotive capable of both propelling; itself from said storage station to said tire igniting stationand`there inducing a desired draft upon its own tire; said tire igniting station being provided with ducts for conveying products of combustion from said locomotive 'to a remote point of disposal.

20. In a steam locomotive terminal, alocomotive fire disposal station, a locomotive storage station segregated from said tire disposal station, a fire igniting station remote from said storage station, means at said storage station for establishing in alocomotive, without appl'cation of lire thereto, steam at a pressure and water at a temperature that render the locomotive capable of both pro# pelling itself from said storage -station 'to said lire igniting station, and there inducing a desired draft upon its own lire; said fire igniting station being provided with ducts for conveying products'fof combustion from said locomotive toa remote point of .diss posal, and washing apparatus at an intermediate point in said ducts, constructed to precipitate solids and absorb gas from said roduots of combustion. 21. In a steam locomotive terminal, a locomotive tire disposal station, a locomotive storage station seo'regated from said tire disposal station, a ire igniting station remote ics lle

from said stora e station, means at said storage station 0r establishing in a locomot-ive, without application of fire thereto, steam at a pressure and water at a temperature that render the locomotive capable of both propelling itself from said storage station to said re'igniting station and there inducing 'a desired draft upon its own fire; said fire igniting station being provided with ducts for conveying products of combustion 10l from said locomotlveto a remote point 0f disposal, and with draft inducing means, extraneous to the locomotive, at a suitable point in said ducts adapted lto supplement draft on the fire.

Signed at Chicago, Illinois, this 22nd day of November, 1926.

LELAN D G. PLANT. 

